nrri-86-5 an economic analysis of block billing for...
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AN ECONOMIC ANALYSIS OF BLOCK BILLING FOR NATURAL GAS
J. Stephen Henderson Senior Institute Economist
NRRI-86-5
THE NATIONAL REGULATORY RESEARCH INSTITUTE 1080 Carmack Road
Columbus, Ohio 43210
March 1986
This report was prepared by The National Regulatory Research Institute (NRRI) with funding provided by participating member commissions of the National Association of Regulatory Utility Commissioners (NARUC). The views and opinions of the author do not necessarily state or reflect the views, opinions, or policies of the NRRI, the NARUC, or NARUC member commissions.
EXECUTIVE SUMMARY
As part of its Final Order 436 the Federal Energy Regulatory Commission (FERC) issued a Notice Requesting Supplemental Comments on Part D of RM 85-1-000 that would establish a block-billing mechanism for jurisdictional sales of natural gas by interstate pipeline companies. Under the proposal, pipelines would divide each customer's bill into two parts, or blocks. Block 1 would consist mostly of the cost of old, price regulated gas, while block 2 would consist of all other categories of gas. Each pipeline customer would be given a fractional allocation of the pipeline's annual block 1 sales.
In comments submitted to the FERC, several organizations asserted that state prorationing laws and multi-vintage contractual obligations prevent proper sequencing of gas takes by pipelines and thereby would prevent block billing from having its intended effect. This assertion is basically not correct. To improve the competitiveness of wholesale gas markets requires that pipeline customers with supply alternatives perceive that the marginal price of the pipeline's supply is the block 2 price. Even with proportional purchasing by the pipeline, distributors that are small in relation to total pipeline sales (say less than 25 percent) will perceive an almost correct marginal price. In particular, the perceived marginal price with prorationing will be a weighted average of block 1 and 2 prices, with most of the weight given to block 2. As an example, a distributor purchasing 10 percent of a pipeline's sales, made up of equal parts of block 1 and 2 supply, would perceive a price based on a 95 weight given to block 2. Such a perception is very close to the FERC intention that pipeline customers base their supply choices, assuming they have some, on the block 2 price. The contention, then, that state prorationing somehow completely negates the effectiveness of block billing is not accurate. The proposal works almost as well with as without prorationing, and is robust with respect to proportional purchasing in this sense.
Many industry observers have suggested that block 2 be divided into a block 2A for market-sensitive contracts and a block 2B for so-called "problem" contracts. The intent of this variation of block billing is to place pressure on recalcitrant producers to renegotiate contracts that pipelines view as being onerous. To be effective, such a proposal would need to include a provision that pipeline customers would have an entitlement to block 2A, similar to the block 1 allocation feature. Most commenters did not suggest such a feature, without which the success of the mechanism would depend mostly on the public embarrassment suffered by producers who have their supplies
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included in block 2B. Even with an entitlement to block 2A, however, the ultimate equilibrium of the market would be unaffected by the block 2 split. Both block 2A and 2B are unregulated and, as such, will tend toward a common single price. Splitting block 2 may speed the adjustment process toward this single price equilibrium, but the pressure provided by the original FERC proposal also is likely to facilitate the renegotiation of contracts. The improvement to the dynamic adjustment ability of the market may be only slight. It should be noted that much producer opposition can be traced to an unwillingness to be subjected to the adjustment pressures inherent in the basic proposal; the split version is likely to increase such adjustment pressures.
Most long-term distortions in the natural gas market that can be attributed to rolled-in pricing occur at the retail level because of the difference created between demand price and marginal cost. The FERC cannot hope to eliminate this gap by itself, since retail rates are based, in part, on state regulation. The FERC proposal would improve the competitiveness of wholesale markets, regardless of state action, however. In addition, it should be noted that state regulators would have no opportunity to reduce or eliminate the distortions of retail, rolled-in pricing without block billing at the federal level. In this light, the criticism that state regulation of retail rates could defeat the FERC proposal is misplaced.
The FERC transportation initiative may allow distributors to make supply choices, which, in the absence of block billing, will be based on the pipeline's rolled-in price. This will create opportunities for distributors to select supplies based, in part, on a pipeline's old gas cushion. Such choices are made mainly in pursuit of economic rents, an inefficient behavior that does not benefit society as a whole. 'Block billing creates the correct perception that the price of block 2 is the relevant price for purchasing decisions and complements the FERC transportation program nicely, in this sense.
Part of the current disequilibrium in the natural gas market is due to changes in economic circumstances, such as the recent reduction in world oil prices and the U.S. economic recession two years ago. Another part of it, however, is an inherent feature of the Natural Gas Policy Act that lifted ceiling prices on about half of the U.S. gas supply on January 1, 1985. Some opposition to block billing by producers is based on the realization that the FERC proposal would facilitate a price reduction of expensive gas supplies. The need for such an adjustment is partially a consequence of the decontrol that allows some producers to receive economic rents thereby creating pressure for other producer prices to decline. Block billing, then, is not the primary reason why some producers are likely to suffer revenue losses in the future. Such losses occur in all markets when surpluses are eliminated.
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The FERC allocation formula, based on historical 1978-84 usage, creates hardships in some locations because of shifts that have occurred in demand patterns. The beauty of the FERC proposal is that it works with any set of fixed entitlement proportions. The FERC could allow individual pipelines and their customers the option to negotiate any other equitable allocation formula tailored to their specific circumstance. The mechanism will improve the competitiveness of wholesale markets, regardless of the outcome of such negotiations.
The U. Sa Department of Energy (DOE) proposal to raise old gas prices, Docket RM 86-3, may eliminate some market inefficiencies. The DOE has predicted that an additional 34 tcf of old gas reserves could be recovered eventually using enhanced production techniques if old gas prices are raised. Also, elimination of vintage pricing, as proposed in Docket RM 86-3, may reduce the inefficient incentives to drill in-fill wells as a way of circumventing the current NGPA price categories. Raising old gas prices, however, transfers to producers much of the economic rents that the Congress bestowed on consumers in the NGPA. The weighing of these efficiency and equity tradeoffs is likely to be a difficult matter in the FERC deliberations. Many observers view the raising of old gas prices as an alternative to block billing. The two policies could be combined, however, perhaps with a small increase in the just and reasonable price of old gas so as to capture some part of the efficiency benefits just described.
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TABLE OF CONTENTS
FOREWORD " " .... vi
ACKNOWLEDGMENTS. vii
Section
1 INTRODUCTION " .. e " e e .. " 1
2 OVERVIEW OF BLOCK BILLING. • 2
3 THE UNIMPORTANCE OF ECONOMIC SEQUENCING. 5
4 SHOULD BLOCK 2 BE SUBDIVIDED? 13
5 RETAIL PRICING ISSUES. e 17
6 WHOLESALE COMPETITION IN THE ABSENCE OF BLOCK BILLING. 0 • • • • • • • • • • • " • e • e 20
7 THREE VERSIONS OF A REGULATED PRICING EQUILIBRIUM. • 21
8 THE EFFECT OF BLOCK BILLING ON PRODUCERS 29
9 SOCIAL FAIRNESS AND EQUITY ISSUES. 33
10 RAISE OLD GAS PRICES? 35
APPENDIX PERCEIVED PRICES UNDER BLOCK BILLING 38
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FOREWORD
At its January 1986 meeting the Board of Directors of the NRRI instructed the staff to prepare within two months an objective economic analysis of block billing for natural gas. This report responds to that directive. It is offered as a contribution to the current debate on this important pricing concept and its public policy application.
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Douglas N. Jones, Director Columbus, Ohio March 1986
ACKNOWLEDGMENTS
The author wishes to thank Lorraine Cross of the American Gas Association, Cheri Fellenz of the American Public Gas Association, Sharon Garey of Columbia Gas of Ohio, and Brad Hopkins of the Public Utilities Commission of Ohio for supplying some of the comments discussed in this study. Peter Nagler, Graduate Research Associate, provided careful and timely help in assembling and sorting through the research materials needed for this report. Kevin A. Kelly, Associate Director for Gas and Electricity, provided many helpful suggestions that have strengthened the presentation and clarity of the report. As always, Karen Myers cheerfully and carefully performed the essential task of converting messy, hand-written drafts into neat, typewritten text.
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Introduction
During 1985 the Federal Energy Regulatory Commission (FERC)
initiated a series of far-reaching policy changes affecting the natural
gas industry in the U.S. The regulatory process at the FERC has
included a Notice of Inquiry (Docket RM 85-1-000), issued in January
1985, on natural gas transportation, rate design, and risk; a Notice of
Proposed Rulemaking, in May 1985; a Final Order 436, on October 18,
1985; and a modified Final Order 436-A, on December 23, 1985. The
Notice of Proposed Rulemaking (NOPR) had four parts. The final order
implemented three parts and delayed the implementation of the fourth
part, a new method that interstate pipelines would use for billing
wholesale customers such as local distribution companies. The FERC
proposed billing mechanism would require each pipeline to divide a
customer's bill into two blocks. The first block would encompass old,
wellhead-price-regulated gas, which would be allocated to both firm and
interruptible customers on the basis of their average consumption
during the period from December 1, 1978 to December 31, 1984. All
other gas, which consists mostly of gas deregulated under the Natural
Gas Policy Act (NGPA), would be billed in a second, separate block.
In issuing its final order the FERC requested an additional round of
comments on block billing and held a public conference in December
1985. If the block-billing mechanism survives this additional round of
scrutiny, it will become effective on July 1, 1986.
State commissions are vitally interested in all parts of the final
order and perhaps especially in the block-billing proposal. To assist
commissions in their study of these issues The National Regulatory
Research Institute (NRRI) has analyzed the block-billing mechanism as
well as the commentary offered to the FERC in response to its request
in its final order. This analysis and report was requested by the NRRI
I
Board of Directors at its winter meeting, January 9, 1986. The report
has several sections, each dealing with an issue or a group of similar
issuese The viewpoints of various commenters are discussed for each
issue@ This organization highlights the substantive economic arguments
for and against block billing. l The first section gives an overview of
the block-billing proposal, after which a more detailed discussion of
particular issues is presented& The intent is to examine the conse
quences of block billing from the perspective of both the eventual,
long-run market equilibrium, and the dynamic adjustment process of
reaching such an equilibrium.
Overview of Block Billing
The FERC proposes to phase-in the implementation of block billing
on July 1, 1986. The proposed rule (part D of the NOPR), as amended,
has a two-part gas rate@ In the first block, interstate pipeline
companies would recover the costs of so-called "forever-regulated" old
gas under sections 104, 106(a), and 109 of the NGPAe The second block
would contain the cost of all other gas, most of which is now
deregulated or will be deregulated after January 1, 1987. The
allocation of block 1 gas would be based on each firm and interruptible
customer's fraction of system purchases during the period from December
1, 1978 to December 31, 1984e The status of certain gas supplies, such
as the Great Plains Coal Gasification Plant, would be determined on a
case-by-case basis. For those pipelines that elect to become
voluntary, nondiscriminatory transporters of gas, the FERC proposed to
establish a rebuttable presumption that block 2 prices are just and
reasonable after a transition period during which all firm customers
would be permitted to reduce their contract demands by 100 percent.
IAn alternative organization, not used in this report, would be to present these viewpoints for each industry segment: producers, pipelines, distributors and so one Interested readers can find a short discussion organized in this alternative manner in "Producers, Consumers Continue to Split Over Merits of Block Billing," Inside FERC, December 2, 1985, ppe 7-ge
2
According to the FERC, such a to rates
that are reas related to block ion costs
It is tant De The
would establish a mechanism It would not
require any icular of gas from any or pipeline ..
ion of natural gas It would not affect or interfere with state
production under laws.. It would not affect existing
contractual between and Part D
simply prescribes how an interstate must bill its customers
for gas that is sold for resale in interstate commerceG
The block-billing proposal is This led one
commenter to conclude that if block is a billing
mechanism, it has no consequence 2 Indeed, it should be noted that it
is at least theoretically possible for each customer of each pipeline
to be allocated a fraction of the V~L~H~'S block 1 gas
2See James E" Rogers" "Oral Statement of James E .. Rogers on Behalf of Florida Gas Transmission , Transwestern Pipeline Company," presented to the Federal Energy Commission~ Docket No .. RM 85-1-000, Part D, December 12, 1985., At the other extreme, several organizations conveyed their belief to the FERC that block billing is illegal and that a legal challenge would be mustered if the proposal is adoptede Senator Don Nickles from Oklahoma was particularly adamant in his opposition to the concept~ See Don Nickles, "Statement of Senator Don Nickles of Oklahoma .. " The of and Minerals of New Mexico, Amoco Production Co , and Mobil Oil, among others, said that they would support a legal if the FERC implements Part De See Paul L .. Biderman, Comments of Paul L® Biderman, Secretary of Energy and Minerals for the State of New Mexico, in Opposition to the Rule," December 11, 1985; Theodore R .. Eck, "Summary of Oral Comments Theodore Re Eck on Behalf of Amoco Production Company," and 1'IIobi.l Oil , "Testimony of Mobil Oil Corporation to the Federal Energy Commission on Order NOe 436," December 12 1985 All of t.hese comments were filed with the Federat-Energy Regulat.ory Commission in Docket No® RM 85-1-000, Part D. The FERC has carefully addressed many of the legal issues in its Notice Requesting Supplemental Comments The Commission believes it has the authori to implement block based on the just and reasonable standard in Sections e), 5~ and 16 of the Nat.ural Gas Act~ In addition, the Commission states that from the requirement of rolled-in pricing treatment of Alaskan Gas, "It is clear that nothing in the NGPA prohibits the Commission from rolled-in pricing, incremental cing or a combination of both in order to implement the mandate of its governing statutes,," FERC Notice Supplemental Comments, 50 Fed at 42379
3
such that the customer' total gas cost does not
before and after the block If block 1 gas
were allocated in this fashion all rates and retail customer
ions could continue as before if distributors do not change
their gas mixo This means that the
itself, does not radi demand or
concept, by
, in the
sense that all economic actors could continue to make the same
decisions as before, with the same economic consequencese
In , block would have effects throughout
the natural gas industrye There are two reasons for thisw
First, the block 1 gas allocation based on 1978--84 consumption patterns
will cause the gas costs of some
instances dramaticallyo Second, the
customers to change, in some
statements, by presenting
possibly more precise and certainly more plainly prices of
block 2 supplies, will encourage wholesale customers to seek lower gas
acquisition costs, to the extent that such customers in fact have
alternatives~ Many do not, of coursee
The first of these two reasons is a social equity
question of how best to distribute the economic rents that accrue from
old gas price regulation@ The second involves an improvement to the
competitive purchasing of gas, which, if it occurs, will be due to two
influences 0 The assignment of to old gas, in effect,
insulates a wholesale customer's decisions from the low
in block l@ That is, a wholesale customer may perceive that a
marginal reduction in purchases from a pipeline will occur
in block 2 (either mostly or , a point elaborated upon in the
follo"Vling section), thus preserving the customer's right to old gas"
The customer does not relinquish the benefit of a Vs favorable
block 1 in order to unburden himself from a high block 2 price,
for
facilitated
The wholesale customer's decisions in this regard are
the billing statement, which will require the block 2
price to be separately stated,
price signals.,
4
the transmission of
It is also to recognize that any allocation of
block 1 gas would serve to insulate that supply, at least partially,
from a wholesale customer's
efficiency would be
responsive mostly to block 2
decisions Economic
decisions would be
to the rolled-in
prices used now® The economic benefits whether meager or
large, are due to this insulating effect of the allocation, no matter
how arbitrary_ The social justice of some allocations, however, may be
considered to be more fair than others@ Choices among allocation
schemes, then, are mos a matter of the f sense of social
justice. The FERC selection of the historical 1978-84 usage-based
allocation is the result of the attention paid to these fairness and
equity issues.
The Unimportance of Economic Sequencing
The normal practice of gas supply sequencing is heavily influenced
by considerations of state laws regarding prorationing as well as
certain contractual provisions that mandate more or less proportional
purchases from a variety of multi-vintage wells owned by a single
producer~ From a short-term perspective, the socially efficient
sequence would be to take gas from wells and fields in increasing order
of marginal cost, so that least cost supplies are used firsts This
efficient economic ordering is practiced in the electric utility
industry (by economic dispatch), and indeed, would be grounds for a
finding of imprudence, in most states, if it were note Correct order
of natural gas supply, however, involves long-term considerations also,
such as the correlative rights of property owners with access to a
common pool of gas, and state conservation laws designed to prevent
waste@ Prorationing rules in major producing states are intended to
address these long-term considerations.
The reali of prorationing was seized upon a great many
commenters who claimed that prorationing would largely offset the
effectiveness of block billing. The viewpoint of spokesmen from
5
producing states ranged from that of the New Mexico of Energy
and Minerals who said that block
conservation laws to that expressed
threatens important state
Dan Nutter who said that block
billing would conflict with state laws that ratable takes~3
The Kansas ion Commission stated that block billing would
infringe on traditional state jurisdiction over ioning. 4
Commissions in some consuming states and most pipelines and
distributors told the FERC that state prorat laws would prevent
proper sequencing and thus negate the effectiveness of block billing. 5
The Transcontinental Gas Pipeline and the Natural Gas
Pipeline Company went further and suggested that the FERC mandate
proper sequencing and fight against state prorating lawse 6
3See Biderman, "Supplemental Comments of Paul L .. Biderman"; and Dan Nutter, "Supplemental Comments by Dan Nutter, Petroleum Consultant, on Behalf of Doyle Hartman, Oil Operator, to the Notice of Proposed Rulemaking," presented to the Federal Energy Regulatory Commission, Docket No. RM 85-1-000, Part De
4See State Corporation Commission of the State of Kansas, "Statement of the State Corporation Commission of the State of Kansas," presented to the Federal Energy Regulatory Commission, Docket No. RM 85-1-000, Part De
5See Michael B .. Day, "Col1'lInen ts of the People of the State of California and the Public Utilities Commission of the State of California," December 11, 1985; George H .. Lawrence and Michael 10 German, "Written Comments of the American Gas Association on the Notice Requesting Supplemental Comments on Block Billing," November 18, 1985; Roger C .. Post, "Supplemental Comments on Behalf of the Columbia Gas Distribution Companies"; and John H .. Cheatham, III, "Comments and Requests for Clarification of the Interstate Natural Gas Association of America," November 18, 1985 .. These comments were presented to the Federal Energy Regulatory Commission in Docket NO$ RM 85-1-000, Part D ..
6See Thomas Fe Ryan, Jr .. , "Comments of Transcontinental Gas Pipeline Corporation in Response to Notice Requesting Supplemental Comments," presented to the Federal Energy Regulatory Commission, Docket No .. RM 85-1-000, Part D, November 18, 1985; and Charles R. Eberst, Jr .. , "Statement of Charles R .. Ebers t, Jr" on Block Billing Proposal," presented to the Federal Energy Regulatory Commission, Docket No. RM 85-1-000, Part D ..
6
In its own context, each of these comments has some validityo It
is true, for example, that proper most likely would improve
society's overall resource allocation in the short term and that state
laws prevent this, or at least do not encourage it In the
view of the author, however, all of these comments about sequencing are
mostly irrelevant to the central question of whether block billing
would be effectiveo The FERC jurisdiction is over sales for resale,
and, as such, the only stage of the natural gas production process that
the FERC could hope to improve is wholesale transactions. Greater
competitiveness and more efficient buying at the juncture of pipelines
and distributors would promote economic efficiency The essential
point missed by all commenters is that block billing accomplishes this
almost as well whether or not supplies are properly sequenced" Block
billing works best, to be sure, under correct sequencing. But perhaps
more importantly it works almost as well when block 1 and block 2
supplies are taken proportionally by the interstate pipelines. The
reason is that each distributor or other pipeline customer consumes
only a small fraction of a given pipeline's total sales" A technical
discussion of this point is in the appendix for interested readers. A
more intuitive explanation follows, in which an example is used to make
the discussion more concrete.
Suppose that a distributor has supply alternatives and is inter
ested in comparing prices.. Under block billing, his bill will have two
parts. Each is the product of the price and volume purchased, with the
price of block 1 being smaller than that of block 2" The distributor
purchases 200 units of gas (perhaps measured in millions of mcf) from a
pipeline that delivers to all its customerSg Half of
pipeline supply is categorized as block 1 at $1 .. 00 per mcf, and the
other half is block 2 supply, currently $4000 per mcf" The
pipeline's rolled-in price to the distributor would be $2.50 per mcf.
Suppose the distributor has an alternative supply source costing $3.00
per mcf.. And finally suppose that the distributor's allocation of
7
block 1 is more or less the same as its current size in relation to the
pipeline's total sales, that is 10 percent 7
The question to be addressed is whether or not the distributor can
correctly ascertain that substituting gas from the alternative supplier
at $3@00 for the $4.00 block 2 gas of the pipeline would be in his own
self interest. The most important aspect of this question is whether
the distributor's self interest leads to the correct decision even when
the distributor understands that the pipeline is forced by state
prorationing rules and multi-vintage contracts to take block 1 and
block 2 supplies proportionally.
There is little question about the outcome if the pipeline
properly sequences its purchases (block 1 first) and the distributor
correctly understands that proper sequencing prevails. All observers
agree that under such circumstances, block 2 would become the marginal
supply from the pipeline and its price would be conveyed properly under
the FERC block billing proposal. The distributor's self interest would
be to purchase gas from the alternative supplier at $3.00 and reduce
its purchases of the $4.00 block 2 supply. If enough distributors were
able to make such choices, competitive pressure would tend to reduce
the price differential of $1.00 per mcf. If there were no limit to the
competition (if distributors could reduce their contract demand to
zero, and wished tOo do so), the price difference would be eliminated,
eventually.
Block billing, then, improves the competitive nature of wholesale
gas markets if pipeline purchases are properly sequenced. The
important question is, To what extent is the mechanism flawed when
pipelines cannot correctly order their purchases? The answer is, Very
littlee With pro rationing , the distributor's perceived marginal price
will not be the pipeline's rolled-in prices This is because the
7The size of this allocation fraction is not important--that it be perceived to be constant, by the distributor, iss
8
distributor has only a fractional allocation of the pipeline's block 1
gas@ The distributor's perceived price depends on this fraction, as
long as he also perceives that his action of reducing his purchases
from the pipeline is independent of the actions of other pipeline
customers. Some of the other customers may be positioned to take
advantage of alternative supplies, like our hypothetical distributor,
and some may not be. As long as each customer acts to optimize his
supply mix independently of all other pipeline customers, the FERC
proposal works even with prorationing. Jumping ahead to the end of
this analysis, under such circumstances the distributor's perceived
marginal price would be a weighted average of the prices of the two
blocks. The weight given to block 1 is the distributor's fixed
fractional' allocation multiplied by the proportionality fraction that
expresses the pipeline's obligation to take block 1 supplies in
relation to its total takes.
In the hypothetical example, the distributor is allocated 10
percent of the pipeline's block 1 supplies. Half of the pipeline's
supplies are from block 1 sources. Suppose that as the pipeline
adjusts its takes at the margin, it must take one-half of its supplies
from block 1. (That is, suppose that the average take and the
marginal take of block 1 gas ~re both 1/2. If these two numbers were
different, only the marginal take would be relevant to the argument.)
The weight given to the block 1 price, then, is 5 percent, which is the
product of the distributor's 10 percent allocation and the marginal
prorationing (1/2) that applies to block 1 gas. The weight the
distributor would give to the block 2 price is the complement of the
block 1 weight, or 95 percent. In the example, then, the distributor's
perception of the marginal price of purchases from the pipeline is
$3.85, which is the weighted average of $1.00 and $4.00 using 5 and 95
percent weights respectively9 The reader should note that this
perceived price of $3885 is the correct perception, in actuality. This
perceived marginal price is very close to the block 2 price as long as
the distributor is small in relation to the pipeline.
9
The exact reason why $3.85 is perceived as the marginal price can
be illustrated by examining the hypothetical example in detail. The
distributor initially purchases 200 units from the pipeline and has
claim to 10 percent of the pipeline's block 1 supplies, or 100 units
(10 percent of 1000 units). The distributor's total cost of gas is
$500 (200 x $2.50)~ Suppose the distributor reduces his purchases by
20 units to 180 units of gas. The distributor knows that the pipeline
will reduce its takes from producers proportionally. So the 20 unit
decline in the pipeline's takes will be split so as to reduce both
block 1 and block 2 by 10 unitss The pipeline would then take 990
units from each block. The distributor knows that he has a
proportional claim to the 990 units of low-priced block 1 gas, so that
he will be billed for 10 percent of 990 units, or 99 units, of block 1
gas. The remaining purchases, 81 units (180 minus 99), will be billed
at block 2 prices. The total cost of the 180 units, then, will be
$423.00 «99 x 1) + (81 x 4)). The reduction of 20 units has saved the
distributor $77.00 ($500 minus $423.00), which reflects a marginal
price of $3.85, as claimed. The same logic applies to a demand
increase of 20 units, as well.
This example makes clear why the perceived marginal price remains
close to the block 2 price, even with prorationing. Each distributor
can correctly anticipate that his own purchasing cut-backs are only a
small part of the pipeline's total sales. After his cut-back, his
claim to block 1 supplies will drop but not in proportion to his
reduction. He recognizes that his own mix of block 1 and block 2 gas
will be tilted in favor of block 1 after his reduction. In the
example, the distributor's fraction of block 1 is 50 percent before and
55 (99/180) percent after the cut-back.
From the point of view of promoting the competitive efficiency of
wholesale markets, the FERC block-billing proposal works almost as well
when there is producer prorationing, as when there is proper
sequencing. The perceived marginal price of $3.85 means that the
distributor would view the pipeline's supplies as being more expensive,
10
at the margin, than the $3.00 alternative. The distributor would make
the socially correct decision in this instance, despite the fact that
the average price of pipeline supplies is only $2.50. The reality of
producer prorationing does not have the effect of making the
distributors' marginal price equal the pipeline's average price, as
implicitly suggested in the comments submitted to the FERC@
The viewpoint of competitive efficiency, to be sure, is not all
that matters in this situation. For instance, the cut-back by a single
distributor has repercussions on other pipeline customers. Because a
distributor or any other customer maintains the same fractional claim
on a pipeline's block 1 supplies, that which is available for others
will be smaller after a cut-back by any single customer. In the
example, the initial split of the 1000 units of pipeline block 1 supply
is 100 for the hypothetical distributor, and 900 for all others. After
the distributor's reduction of 20 units, the distributor claims 99 out
of 990 units of block 1 gas, leaving 891 units for all others. Hence,
the distributor's action causes a reduction of 19 block 1 units that
are allocated to others. This raises the average price of gas to all
remaining pipeline customers. In effect, there is a pecuniary,
negative externality imposed on others by the action taken by anyone
pipeline customer. 8
It is important to note that the externality just described is
purely pecuniary and, as such, has no effect on any distributor's
purchasing decisions. There are no efficiency consequences, then, of
the phenomenon, and hence the claim can be made that competitive
efficiency of wholesale markets is enhanced by block billing almost as
well with prorationing, as with proper sequencing.
The pecuniary nature of the externality, nonetheless, has
nontrivial ramifications for social equity and justice. Captive
distributors and other customers with no supply alternatives may point
8The aggregate externality in this case is -$1.35 per mcf. That is, for every unit of cut-back made by the hypothetical distributor, the aggregate bills of the remaining customers go up by $1.35.
11
out the injustice of paying a higher cost because of supply oppor
tunities available to, in their view, a fortunate few@ Although it may
be difficult for such distributors to these
inequitable consequences are not permanent. Indeed, the action of
those with supply alternatives is precisely that which is needed to
bring prices into equilibrium again~ The competitive pressure, in
part, will tend to bring down the pipeline's block 2 prices, creating a
positive benefit for all, including captive distributors. The
opposition to block billing by some customers on the basis of the
negative externality would be short-sighted~
The analysis thus far has been based on the premise that pipelines
take block 1 and block 2 proportionally. Under proper sequencing,
the marginal take of block 1 supplies would be zero, that is, block 1
gas would be purchased first and all marginal adjustments would occur
within block 2. 9 With correct sequencing, then, the marginal price
would be that of block 2, and the negative externality would not occur
at all. The reason is that the pipeline's block 1 take would not be
reduced in response to any customer's cut-back, and therefore, it would
not have any spillover consequences on otherse
In this light, an important empirical question is the extent to
which most pipelines can and do properly sequence their purchases. The
recent U.S. Supreme Court ruling in the Transco v. State Oil and Gas
Board of Mississippi case is germane to this question. 10 In that
ruling, the Court prevents the Mississippi Board from imposing ratable
takes on Transco within a common pool of gas. This allows Transco to
sequence its takes more in accordance with short-term efficiency
considerations, possibly subject to contractual constraints that
prevent a complete economic ordering.. The issue is not completely
settled, however. The Court decided the matter by a 5-4 vote, with the
dissent pointing out that a ratable-take rule promotes efficiency when
9This presumes that customers do not reduce their purchases by more than the pipeline's total block 2 purchases. If this happens, which seems highly unlikely, block 1 would become the marginal supply.
lOThis case is discussed in Inside FERC, 27, 1986, p .. L.
12
applied to a common pool, a reference to important considerations about
long-term property rights.
The extent of prorationing or correct in a pipeline s
future purchasing practices is by no means obvious, then. It appears
that pipelines may have considerable discretion in arranging their
~equencing so as to promote short-term efficiencYe If so, the FERC
block-billing proposal would promote competitiveness in wholesale
markets with few pecuniary spillovers. Even if prorationing prevails,
however, the FERC proposal would impose strong competitive discipline
on wholesale markets, in a subtle manner that has not been acknowledged
in the comments submitted to the FERC.
Should Block 2 Be Subdivided?
A large number of comments submitted to the FERC contained the
suggestion that the concept of block billing be carried further than
proposed in part D of RM 8S-I-000e These commenters recommend dividing
block 2 itself into 2 parts. Block 2A would contain so-called market
responsive contracts, while block 2B would consist of nonresponsive or
"problem" contracts.. This idea was advocated by the California and
Wisconsin Commissions and many distribution and pipeline companies 011
The process for identifying which contracts belong in which category is
not made clear in many of the comments.. For the purposes of this
discussion, a very sensible and straightforward procedure, as explained
by Dayton Power and Light, would be to allow each pipeline company
to choose its own definition of market responsiveness and thus assign
contracts to blocks 2A and 2B according to its own circumstancess
llA partial list of these organizations includes the Interstate Natural Gas Association of America the American Gas Association, the Associated Gas Distributors, the United Distribution Companies, Brooklyn Union Gas Company, Entex, Florida Gas Transmission Company, Trans Western Pipeline Company, Natural Gas Pipeline Company, Tennessee Gas Pipeline Company, and Dayton Power and Their comments are filed with the FERC in Docket No RM 85-1-000, Part D
13
The purpose of the block 2A/2B concept is to place pressure to
renegotiate on those producers whose contracts the pipeline finds
particularly onerous and the gas unmarketable. The exact form in which
such pressure will be manifested is not clearly statede Indeed, many
of the comments leave the reader with the impression that the harsh
glare of public attention focused on the price of block 2B supplies
will persuade such recalcitrant to seriously and
bring their prices down@ This is a form of "jawboning" that depends,
in part, on public embarrassment to achieve the goale A purely
economic perspective suggests that such a strategy is not likely to be
successful. The efficacy of this kind of discipline in reducing prices
perhaps should not be discounted entirely, however, particularly in
light of the number of commenters who believe it to be an important
influence.. But, public indignation toward corporations with high
prices has a very mixed, if not poor, record in achieving the desired
results.. If this is the major source of price discipline intended by
the block 2A/2B proposal, its chances of success do not seem to be
particularly high.
The other possible source of price discipline is that which is
discussed in the previous section--distributors choosing least-cost
supplies.. The action of a pipeline customer reducing his purchases
enforces a discipline on producers which is an order of magnitude
stronger than mere jawboning. The question to be addressed in this
section is whether subdividing block 2 improves the competitiveness of
wholesale markets by improving the purchasing decisions of those
pipeline customers with supply alternatives.. Again, skipping ahead to
the conclusion, the answer is slightly more complicated than that given
for block billing in the previous section, but is straightforward
nonetheless.. If the block 2A/2B billing mechanism contains a
fractional allocation of the pipelines' block 2A supplies for each
customer (perhaps based on historical usage, as is the case for block
1), the subdivision would improve the competitiveness of wholesale
markets, in that the customer's marginal would be that of block
14
2B suppliesG If the block 2A/2B billing
customer entitlement, it creates little or no
contains no such
incentive for
a wholesale customer to choose alternate sources of supply, other than
that already inherent in the FERC Only three commenters
suggested that customers be given an entitlement to block 2Am 12
Without such an entitlement, the bifurcation of block 2 improves the
FERC proposal only slightly, if at all The burden of administering an
additional block that does not improve the itiveness of wholesale
markets is likely to make the block 2A/2B concept unattractive to the
FERC,.
Elaborating on this conclusion, it is useful to recall that the
FERC proposal improves the competitiveness of wholesale price signals
for two reasons--there is a two-part bill and an entitlement to
supplies in block 1. The beauty and simplicity of the FERC proposal is
that it combines both elements, nothing more nor less,. Without the
entitlement, the proposal truly would be a mere billing procedure with
no consequences, because a customer's marginal price would be the
rolled-in prices The fact that the entitlement is stated as a fraction
(and not as an absolute volume of gas) means that state prorationing
laws may reduce the procedure's effectiveness slightly, but it remains
very effective, indeed, in causing the distributor to perceive that the
marginal price is very close to the price of block 2 gas--the
intention of the FERC. If the entitlement were stated in absolute
terms, prorationing would not reduce the perceived marginal price at
all. It is the customer's entitlement then, that makes the FERC
proposal work, and it is also this entitlement that makes the proposal
robust with respect to prorationing.
If a similar, fractional entitlement to block 2A were
given to customers, then the bifurcation of block 2 would improve
matters, in the sense of caus a
12See the comments submitted Commission, Brooklyn Union Gas Distributors filed with the Federal Docket RM 85-1-000, Part D.
s customer to perceive the
the Wisconsin Public Service and the Associated Gas
Commission in
15
price of block 2B as the marginal priceo Suppose the previous
numerical example is expanded to include the block 2A/2B concept. In
the previous example, the price of block 2 supplies is $4.00 per mcf.
Suppose block 2 consists of equal parts of block 2A at $3.00 per mcf
and block 2B at $5.00 per mcf.
In this example, wholesale market competitiveness is improved to
the extent that $5.00 is perceived as the marginal price. Four
possible cases can be created depending on whether or not customers are
entitled to a fraction of the pipeline's block 2A supplies, and also on
whether the pipeline can correctly sequence its purchases or must take
gas proportionally from all sources. Table 1 summarizes a wholesale
customer's perceived marginal price in each of these four circum
tances. The details of the calculations are in the appendix. As
described in the previous section, and for the same reasons, the
perceived price is close to the block 2B price of $5.00, as desired, as
long as each customer has an entitlement to block 2A gase In the
absence of such an entitlement, however, the perceived marginal price
is close to the average price of blocks 2A and 2B, which is $4.00,
whether or not the sequencing is correct. The $4.00 price also would
be perceived under the FERC basic proposal, so the splitting of block 2
in this case adds little to the basic block billing concept.
TABLE 1
WHOLESALE CUSTOMER'S PERCEIVED MARGINAL PRICE IN FOUR CIRCUMSTANCES
An Entitlement to Block 2A With Without --------
Correct Sequencing 4.08
With Prorationing 3.85
----------------
16
Thus far, the discussion has focused on the distributor's
perception of the marginal ce, and how this
under various circumstances@ There are two
is
economic
consequences of such an It affect the market's
ultimate or it might the market's ustment
in its or both~ The new
likely to be much different if block 2 is
itself is not
Both block 2A and 2B
would consist of unregulated gas~ free to seek its own level $
The eventual equilibrium will have the same
gas, unless there are impediments to away the
differentials that currently exist between the two blocks
such a single, unregulated ~ay take several years,
but it is true nonetheless that the same price will
for both block 2A and 2B in a competitive market~
Although splitting block 2 does not the
concept could be beneficial to the extent that it
the
upon the
market's adjustment speede This should be evaluated in
comparison to the original FERC proposal which creates substantial
pressure on the industry to begin to seek such a balance With an
entitlement to block 2A gas, the adjustment may be faster, but without
it, there is little difference between the FERC
split-block versiono
Retail Pri Issues
and the
The FERC block-billing proposal to wholesale
transactions under the FERC It does not affect state
regulation of the retail rates of local distribution
retail rates are based on rolled-in 'Whether
and allocate commissions would choose to follow the FERC
1 gas to particular end users would be decided, of course
commission
The FERC received several comments the effect
continuation of rolled-in at the retail level
17
wholesale block billing from achieving the FERC ective 13 A
variation of this comment was that the FERC block-billing
would succeed only in the old gas cushion to distributors,
with the implication that the distortions in the gas market would be
merely shifted to the distribution level
This criticism is difficult to evaluate for a of reasons
For one thing, there is a nontrivial difference between
efficiency of wholesale markets and improving retail market
Wholesale customers (who are not end users) can minimize their gas
purchase costs comparing the marginal prices of alternative
the
(holding constant such matters as service The average
price does not matter to a distributor attempting to minimize total gas
costs.. Because the distributor merely transports the gas and is not an
end user of gas, there is nothing about the distributor's demand
function which would prevent the marginal price from being that upon
which purchasing decisions are madem The same may not be true for
retail markets. For many long-term investments in
equipment, lifetime total costs matter and hence the end user's average
price may impinge on his long-run demand for gas, even if block billing
were instituted at the retail level.. Some complex combination, then
of average price in long-run capital equipment decisions and marginal
price in short-run gas usage decisions may determine the demand of end
users. There is no similar reason to suspect that wholesale
decisions would depend on any price other than marginalm
13See , as example, the following comments: Cheatham, "Comments and Requests for Clarification of the Interstate Natural Gas Association of America"; Mobil Oil Corporation, "Tes of Mobil Oil Corporation"; Edward J" Grenier, Jr@, Statement of Edward J® Grenier, Jr .. on Behalf of the Process Gas Consumers , American Iron and Steel Institute, Association of Businesses Tariff Equity, and Georgia Industrial Group," December 11, 1985' and John P .. Murphy, "Statement of John P.. on Behalf of the American Institute, Inc .. , Opposing Block Billing .... All of these comments were filed with the Federal Energy Commission in Docket No RM 85-1-000, Part D ..
18
In its Notice Requesting Supplemental Comments on block billing,
the FERC clearly recognized that its proposal would affect neither
state prorationing procedures nor state jurisdiction over retail
rates The FERC can aspire only to improve the competitiveness of
wholesale marketse It cannot require any
at the retail level.
form of
Most of the market distortions that can be attributed to rolled-in
pricing occur at the retail levele In particular, the demand is
smaller than the supply price. That is, the consumer's marginal
benefit from the incremental unit consumed is less than the marginal
resource cost given up by society in producing such a unit$ This is
because end users are given a rolled-in price. Wholesale block billing
can eliminate much of the differences in block 2 between
pipelines and thus make the wholesale playing field level where it
matters, which is to say at the margin. Wholesale block cannot
eliminate differences in average prices between
to differences in old gas supplies, however. If retail
rolled-in, the distortions associated with the
that are due
ces remain
will remain,
alsoo In this case, the principal virtue of wholesale block billing is
that it facilitates the dynamic process by which the natural gas market
adjusts from one rolled-in price equilibrium to another This is not
by any means, a trivial advantage. Such an in the process
of sending price signals between the producer and end user could help
the market to adjust efficiently to new circumstances~
Most importantly, however, wholesale block billing must logically
precede retail block billing. No state commission could institute
retail block billing for distributors served by interstate pipelines in
the absence of the FERC wholesale block-billing mechanism@ A
distributor could not give an entitlement to low cost gas to his
customers without having such an entitlement himselfm A distributor
having a claim to a fraction of his supplier's block 1 gas could pass
on this benefit to retail customers in the form of an inverted or
increasing block rate structure, for example 3 The tail-block
19
faced retail customers could be set to to the
distributor's marginal it is true that state
and local distributors could
even in the absence of wholesale block
block rates
some have), it
would be difficult to design rational rates in such a circumstancee
Without wholesale block , the distributor's
to an interstate is the rolled-in ce
Fashioning an inverted rate structure that has such a rolled-in
as the tail block would not the of the signal
conveyed to end userse
The statement that the ultimate purpose of the FERC in ing
block billing would be mostly thwarted the continuation of retail
rolled-in pricing, then, is valid This is not a reason, however, for
not adopting the FERC proposal" Without wholesale block , there
is no possibility that state commissions can
signals. Even if state commissions decline to some form of
retail block billing, the FERC would the
competitiveness of wholesale markets, a not insubstantial benefit@
Wholesale in the Absence of Block
The FERC is encouraging and their wholesale customers to
arrange matters so that customers have
transportation program succeeds, in that most
choices ..
or
(1) the
decide to
the FERC offer to become
and (2) block is not
contract carriers,
w~olesale customers, then, would
base ing decisions on their of the price of
each supply al ternati ve Because rates viTOuld continue to be
based on rolled-in cing, distributors and direct industrial
customers would perceive the rolled-in rate the
A distributor with options would select sources with the
lowest rolled-in some industrial
customers be
Indeed, distributors
to construct small
s favorable,
spurs as to
benefit from another To
20
the extent that the pipeline's rates are low due to a amount of
block 1 gas, such behavior is inefficients It is the
mere pursuit of economic rents~ The distributorVs choices, in such
circumstances, are largely based on the desire to get a share of
another pipeline's , old gas
The FERC block-billing , on the other hand, complements
the transportation program in the sense that it
creates the on the
block 2 ce is the
after" some alternative pipeline
of distributors that a pipeline's
If a distributor elects to "go
ter the distributor has exercised
its 15 percent contract demand reduction , for example), it does
so in order to receive the 's block 2 supplies and prices, and
not as a way of seeking the rents embedded in that pipeline's block 1
sources~ The transportation program without block billing seems likely
to invite nontrivial amounts of such rent-seeking activities~
Three Versions of a Regulated Pricing Equilibrium
It is instructive to compare the nature of the natural gas
market's equilibrium under three circumstances: (1) total wellhead
price regulation combined with rolled-in (2) partial wellhead
price regulation combined with rolled-in pricing, and (3) partial
wellhead price regulation combined with some version of block billing
at the retail levels The first circumstance corresponds roughly to the
situation before January 1, 1985 The second circumstance is intended
to correspond to current conditions (with or without wholesale block
billing, as we shall see) while the final circumstance is a useful
benchmark describing what if
end userse The analysis is presented
are conveyed to
and is an elaboration
of the technique used to describe a rolled-in
previous NRRI 14 The purpose of this section is to compare
Henderson, et a1 , Gas Wellhead Price
21
in a
annual production volumes under the three circumstances, where economic
conditions are stable. This is a hypothetical exercise, the
conclusions of which can be found in the final paragraph of this
section.
Since the purpose here is to compare equilibria, a simple
expositional device is used. The assumption shall be made that
producer price regulation is conducted perfectly over any market
segment to which it is applied. In particular, each producer receives
a price equal to his own marginal cost and supplies are brought to
market in the correct, increasing cost ordere This exercise is useful
because it can be graphed easily. It can be compared, then, to what
happens when part of the producing sector is deregulated. The
qualitative conclusion does not change if the more realistic
step-by-step price ceilings of the Natural Gas Policy Act are used;
however, such complex detail cannot be depicted graphically.
Figure I shows the nature of a rolled-in pricing equilibrium, with
increasing costs and producer price regulation. With perfect
regulation, each producer receives a different price, one equal to his
own marginal cost. Consumers, under rolled-in pricing, pay the
average of this constellation of producer prices. For these to be in
equilibrium with no shortages requires that two conditions be met.
First, the final unit of gas demanded at the average price must be
supplied by the most expensive producer. Second, the total payments by
consumers must equal the total receipts of producers. The equilibrium
depicted in figure 1 satisfies these conditions, with the understanding
that consumer payments are net of transportation fees.
The rolled-in price in figure 1 is Pl and the quantity Ql is
traded in the market. The total payment made by consumers for gas is
the product of PI and QI or the area OBEFe Each producer receives his
own marginal cost and with perfect regulation these receipts would
equal the area under the supply curve up to Qle This is the trapezoid
OADF. Figure I depicts a rolled-in pricing equilibrium because it has
been constructed so that these two areas are equal. An alternative way
22
of viewing matters is to note that the equality of the two areas just
described means that triangles ABC and CDE are also equal. The area
ABC corresponds, in some sense, to the old gas cushion whereby the
Price
B
A
o
Fig. 1. A rolled-in pricing equilibrium
Supply or Harginal Cost
Demand
Quantity
producer receives less than the average price paid by end users. The
area CDE, likewise, can be interpreted as payments for expensive gas in
excess of the average price. In this interpretation, the old gas
cushion is exactly offset by the cost of expensive gas. Despite the
fact that old and expensive gas costs are in balance, the market
remains permanently distorted by the rolled-in pricing policy. At the
margin where Ql is traded, the marginal cost of the producer (vertical
distance DF) is higher than the marginal benefit or willingness to pay
of consumers (the vertical distance EF). The gap between the supply
23
and demand schedules, vertical distance DE, is the value of the
marginal distortion in this market equilibrium.
Figure 1 is intended to be a hypothetical rendition of the natural
gas market with perfect regulation and stable economic conditions.
During the 1982 to 1984 time period, market conditions were not stable
in facte Demand for natural gas was depressed by a general economic
recession. The market continues to struggle to regain its balance even
now in 1986. Despite this reality, suppose for a moment that the
equilibrium in figure 1 had prevailed in late 1984. After January 1,
1985, several categories of gas were freed from wellhead price
controls. The nature of the equilibrium changes with such partial
decontrol.
Figure 2 replicates the equilibrium in figure 1 for purposes of
comparison. The price PI and quantity Q1 represent the fully-
D
I o~--------------------~------------------~~------
Fig. 2. A rolled-ill pricing equilibrium ullder partial decontrol
24
Quantity
regulated, rolled-in price equilibrium in figure 1@ In a partially
regulated setting some gas remains subject to ceiling prices, while the
remaining gas is not regulated at all. In figure 2, suppose that the
regulated wells happen to be those arrayed from the origin to QO. (The
placement of QO will not affect the following argument) Producers
along the supply curve, then, from A to G receive marginal cost under
old gas controls This corresponds to the idea of block 1 gas Beyond
the point G, prices are deregulated There is nothing to prevent any
producer from raising his price as high as the market will bear.
Eventually, competition among producers will yield a single price, more
or less, for all gas in excess of Qo- The single price for what could
be called block 2 gas must be greater than or equal to the marginal
cost for all supplies offered in the unregulated portion of the market
because no producer would be willing to sell the gas at less than
marginal cost.
Suppose the prices of the perfectly regulated block 1 supplies and
the single price of the decontrolled block 2 supplies are averaged
together to create a rolled-in price to be paid by consumers This
corresponds to the situation after January 1, 1985. The new
equilibrium may be reached only after several years of adjustment@ The
ultimate equilibrium, as shown in figure 2, would tend to have less
total sales, at a higher rolled-in price, and with a block 2 producer
price somewhat smaller than the marginal cost of the most expensive
well in use under the fully regulated equilibrium in figure 1.
The effects just described are implied by this model of the
market's equilibrium for a very simple reason With partial decontrol,
it would be true that at least some producers will be paid more than
their marginal cost, if the ceiling price had previously been
effective. Producers who own wells that have marginal costs just to
the right of point G in figure 2 are examples. These are the fortunate
well owners who have the cheapest sources among the deregulated
supplies. Since at least some suppliers are paid more under partial
decontrol than under full regulation, it must be the case that the
consumer's rolled-in would increase.
25
The partial decontrol, rolled-in
same two rules that were given for the
equilibrium must obey the
supplied
and demanded must be equal, and total consumer payments must equal
total producer receiptse The new rolled-in in figure 2 that
accomplishes these two things is , with the block 2 price
S being P2e Consumer payments are measured the area OBFH, while
producers receive OAGI in block 1, IDEH in block 2 The
that area ABCG equal CDEF$ It of payments and total
must be the case that the traded in the market, Q2, under
this decontrol is less than that traded under full
regulation, Q2" This is because P2 must be higher than PI (some gas
F on the demand curve is costs consumers more) and hence
associated with a smaller Quant than
The important conclusion of this comparative-static exercise is
that the effect of partial decontrol constant other
influences) is to reduce the amount of natural gas bought and sold from
Ql to Q2" From the viewpoint of soci as a whole, the market
distortion has been reduced by the partial decontrol., The marginal
distortion in figure 2 is reduced from the distance KJ to EF, for
examplee Some marginal consumers, perhaps boilers, drop out of the gas
market and some high cost marginal producers that could sell gas under
the full-control regime would eventually be forced out of a correctly
sequenced, partially-regulated market.. The shift in policy, then, from
a fully to partially regulated wellhead market, by itself, would tend
to force marginal producers, along the
out of the market ..
curve from point E to K,
The reality is more complicated than this simple model, of course.,
Producers from point E to K with
accept a price lower than the
figure 2; since much of the
a case, there would be excess
other than
capacity is absorbed demand
26
wells would be willing to
cost in
investment would be fixed" In such
that could be rationed in ways
Until the excess
over time the actual librium
would be somewhat different from the sequenced version shown
in figure 2 Even so, the conclusion remains that the NGPA timetable
for partial decontrol contains an inherent tendency to shrink the gas
market as gas is deregulated 0 The indus has experienced, in
addition, a shift in demand because of oil prices and the UeS. economy,
both of which have allowed the so-called gas bubble to endure for
several years@
The process of adjusting to the new equilibrium under partial
decontrol is not an easy ones The dif is the market
S determination of the single price for supplies, P "
2
Producers do not know this at the outset, and, in addition, they
may have signed long-term contracts at a closer to marginal coste
Renegotiating such contracts may take several years e The speed of the
dynamic adjustment process will be faster to the extent that the
wholesale market is more competitive at both the producer-pipeline
and pipeline-distributor juncturese A severely flawed market may move
toward the single, unregulated price very , indeed
The partial-decontrol in figure 2 is the same whether
or not the FERC were to adopt wholesale block billing, as long as
prices are rolled in at the retail levele That is, the EF distortion
in figure 2 is due to a difference in the price by end users and
that paid to unregulated suppliers. The existence of that distortion
depends solely on whether retail prices are rolled-ine The FERC
block-billing proposal, then, does not affect the ultimate equilibrium
towards which the industry is aimed. Wholesale block billing, may
dramatically speed up the adjustment process, but will not change the
equilibrium itself
If the FERC were to adopt wholesale block , state
commissions may follow suit and establish entitlements to block 1 gas
for specific customer groups or inverted rate structures
so as to make the marginal retail price equal the price of block 2
suppliese The ultimate market ibrium if
27
block billing were adopted for all retail customers~ This case is
depicted in figure 3 with the retail block-billing equilibrium having
P3 as the block 2 or marginal price and Q3 units of gas being traded.
As before, block 1 is perfectly regulated and includes all sales up to
QO- A single unregulated price would prevail for sales beyond Qo, that
is, block 2 sales. With retail block billing, the block 2 price would
also become the end-user's marginal price. The only equilibrium
possible (assuming that end users base consumption decisions on
marginal and not average price) in these circumstances is where the
supply and demand schedules cross.. Such an equilibrium is efficient
and eliminates the marginal market distortions associated with retail
rolled-in pricing. Reaching such a position with Q3 units of sales,
after an initial equilibrium at Q2, involves a difficult contraction of
the market. The initial excess capacity due to wells already in place
creates a temporary need for supply rationing which may cause
Price
s
D
Quantity
). A retail block-billing pric equilibrium
28
unregulated block 2 prices to fall below P3 to encourage gas usage
during the transition period@
In conclusion, this analysis suggests that the policy of partial
decontrol, by itself, tends to induce a contraction in the gas market.
This explains part of the current pressure on high-priced producers in
particular to reduce of what is called unmarketable gase
Wholesale block bi , by itself, speeds the adjustment process of
finding an equilibrium single for block 2 supplies, but it does
not affect the nature of the ultimate equilibrium& Block billing at
both the wholesale and retail levels is needed before the long-run
economic distortions associated with rolled-in pricing can be
eliminated 9 Beginning from an initial position that is based on
rolled-in pricing, both the partial decontrol and retail block billing
policies are accompanied by severe adjustment problems as the industry
contracts to a smaller volume of equilibrium salesg
The Effect of Block Billing on Producers
The FERC received many comments stat that block billing would
inflict billions of dollars of losses on the indus Not
surprisingly, the segment of the expected to absorb such
losses differed, depending on the affiliation of the person submitting
the comments. The Interstate Natural Gas Association of America, some
interstate pipelines, and Stephen Williams writing for the American
Enterprise Institute reasoned that pipelines would have large
take-or-pay exposure. IS Spokesmen for producers claimed that billions
of dollars of gas would be unmarketable under block billinge I6 The
I5See Cheatham, "Comments and Requests for Clarification of the Interstate Natural Gas Association of America"; see also Stephen Fe Williams, The Natural Gas Revolution of 1985 (Washington, D"C@: American
16As examples, see the comments: Don Nickles, "Statement of Senator Don Nickles of Oklahoma"; John Breaux, "Testimony
29
spokesmen for producers frequently argued that the loss of producer
revenue would adversely affect drilling activity@17 The conclusion
frequently reached was that block billing would create a short-term
price reduction benefit for consumers, which would be more than offset
by the prospect of future shortages due to a reduction in current
drillinge
This allegation of large amounts of unmarketable gas or large
take-or-pay exposure can be discussed on two levels~ As a general
proposition, the idea that wholesale block billing, by itself, will
have such effects can be viewed in terms of the three regulated price
equilibria described in the previous section. In the current state of
disequilibrium, it is undoubtedly true that the combination of the FERC
block billing and transportation programs would facilitate a more rapid
adjustment to a new balance. In that process, some producers and even
some consumers are likely to suffer hardship. It is only the
adjustment speed, however, that wholesale block billing, by itself, is
likely to affect. The unmarketability of the most expensive gas
by Rep. John Breaux to the Federal Energy Regulatory Commission," December 11, 1985; and Tom Loeffler, "Statement of Honorable Tom Loeffler (R-Texas)," December 11, 1985. Nickles is a UeS .. Senator from Oklahoma; Breaux and Loeffler are U .. S. Representatives from Louisiana and Texas, respectively. See also Stanley Pickens, "Statement of Stanley Pickens"; Mobil Oil Corporation, "Testimony of Mobil Oil Corporation"; Commissioner James E. (Jim) Nugent, Untitled Testimony, December 11, 1985 (Nugent is a member of the Railroad Commission of Texas); TeE .. Davis, "Comments of Mr .. T .. E. Davis on Behalf of E .. I .. duPont de Nemours and Company," December 12, 1985; Scott Anderson, "Comments of the Texas Independent Producers and Royalty Owners Association," December 11, 1985; and Charles He Shoneman, "Statement of Charles He Shoneman on Behalf of the Oklahoma Independent Petroleum Association and Samson Resources Company, December 11, l~~J. All of those comments were filed with the Federal Energy Regulatory Commission in Docket No. RM 85-1'-000, Part De
17The issue was consistently discussed in these comments as a pure income effect, in that loss of revenue leads to reduction of retained earnings that could be used to finance future drilling.. Discussion of price incentives to drill were largely confined to observations that some high-cost gas would not be marketable under block billing~
30
supplies is an inherent feature of the NGPA because it allows some
producers to receive economic rents when ceiling prices are lifted. In
this sense, one producer benefits at the expense of another, at least
in part. The hardship cannot be attributed solely to block billing.
At a more specific level, the arithmetic on which the billions of
dollars of projected potential losses rests has the following
character. The commenter compares the current price of each
pipeline's supply of block 2 gas with an estimate of the market
clearing price under block billing. l8 The market-clearing benchmark
price is difficult, at best, to estimate.. Some observers have used
current spot market prices. This creates the appearance of very large
potential losses indeed. The average price of block 2 gas for major
interstate pipelines is about $3.50 per mmbtu,,19 The spot market price
is $2.00 to $2.50 per mmbtu, which creates the appearance of a
potential loss of about $1.00 to $1850 per mmbtue When multiplied by
the volume of block 2 gas, about 5 quadrillion btu, the conclusion of
such observers is that the pipelines or producers are exposed to $5 to
$7 billion of potential losses.
Such a loss magnitude depends upon the success of a very small
spot market in competing down the price of a much larger block 2
supply.. These observers implicitly assume that the price of the block
2 gas is the one which will be forced to adjust by the new market
conditions. Since the spot market has no long-term impediments, either
regulatory or contractual, that prevent its price from adjusting, it
seems much more likely that spot prices will be moved up, at least part
way, to meet the declining block 2 price. The current low level of
18See the comments filed by the Interstate Natural Gas Association of America; Williams, The Natural Gas Revolution of 1985, ppe 28-29; and the Foster Associates Analysis cited in footnote 46 of the FERC Notice Requesting Supplemental Comments, Docket No. RM 85-1-000 (Part D), October 18, 19850 The Notice can be found in the Federal Register at 50 Fed .. Reg. 42372.
19See the appendix of the Comments of the Natural Gas Supply Association in Docket No. RM 85-1-000, filed July 15, 1985.
31
spot prices is, in part, a reflection of the lack of price
flexibility of large gas volumes that are committed to the interstate
pipelines This current, distorted constellation of market prices must
be used very carefully in inferring producer-pipeline revenue losses
that can be sensibly attributed to wholesale block billing.
The reader should be aware that the above projected losses, if
they occur, are due to a market adjustment process that does not
necessarily depend on block billing. The difference between block 2
and spot prices is a symptom of market disequilibriume The FERC
transportation program, if adopted by most pipelines, will allow more
vigorous competition between pipeline and spot sources by giving
distributors an opportunity to choose@ While it is true that
distributors would perceive the pipeline's rolled-in price to be
marginal in the absence of block billing, the spot market nonetheless
will place downward pressure on block 2 prices. If the action of
distributors exercising their purchasing options were the only form of
competition, the eventual equilibrium would equate the spot market
price with some sort of average of the pipelines' rolled-in prices.
Pipelines themselves, however, can include spot market purchases in
their own system supply, a form of competition which should tend to
equate block 2 prices with the spot market@ It is this kind of
pervasive competition which is needed to establish a single block 2
price in the partial-decontrol equilibrium described in the previous
section. The more vigorous this competition, the more quickly such a
uniform block 2 price will occur. In the absence of such competition,
it probably is true that the natural gas market could remain out of
equilibrium for several more years with spot market prices below those
of block 2. Once the equilibrium is reached, however, the losses
currently being attributed to block billing will have occurred
regardless of whether the block-billing policy is adopted or not. The
primary effect of adopting the FERC billing proposal is likely to be a
speeding up the process of reaching, not changing the nature of, the
partial-decontrol equilibriums
32
Social Fairness and Equity Issues
Because the FERC block-billing proposal changes the status quo
there are a variety of serious, social equi concerns that must be
addressede Three of these seem important 0
A number of public officials from North Dakota explained in their
comments that block billing most likely would be a very serious blow to
the Great Plains Synthetic Natural Gas ect if the gas from the
project were placed in block 2520 FERC Opinion 119, in April 1981, was
part of the settlement of ion in which it was agreed that the
pipelines would roll-in the costs of gase On the one hand, a
policy of rolling-in the high price of synthetic gas is clearly
inefficient, in the short run $ On the other hand, the investment in
the project was based on the expectation of continued rolled-in pricing
treatment, and therefore a decision to place synthetic gas costs in
block 2 clearly would be inequitable. In this particular conflict
between efficiency and equity, it appears from its Notice Requesting
Supplemental Comments that the FERC is inclined to place such gas in
the block 1 categorYe
In the comments made the Northern Distributors Group, it is
clear that the proposal to base block 1 entitlements on 1978 to 1984
usage would cause large changes in prices within this Group s service
area if block billing is adoptede The difficulty stems from rather
large shifts in gas purchasing patterns that occurred because some
fortunate large customers had opportunities to contract for low-priced
20See the following comments: Byron L .. Dorgan, "Testimony before the Federal Energy Regulatory Commission," December 11, 1985; and Quentin Burdick, "Statement by Senator Quentin Burdick before the Federal Energy Regulatory Commission," December 11, 19850 Dorgan is a D.,Se Representative and Burdick is a DeS Senator.. See also George As Sinner, "Statement to the Federal Energy Regulatory Commission," December 11, 1985; and Sarah Vogel, "Testimony of Sarah Vogel", December 11, 1985. Sinner is the governor of North Dakota and Vogel is an assistant state attorney general.. All of these comments were filed with the Federal Energy Commission in Docket NOG RM 85-1-000, Part De
33
supplies in 1983-84. Because these customers were on the pipeline
system from 1978 to the early 1980s, they still have a substantial
claim to block 1 supplies under the FERC formula~ Such customers could
assert a right to substantial quantities of block 1 gas and still have
favorably priced nonsystem supplies in lieu of the pipeline's block 2
gas. This will create a severe burden on those customers who have no
supply choices and find themselves with a relatively small allocation
of block 1 gas compared to their current usage. This is a very serious
problem, but it is one that has a very simple solution e The FERC could
allow each pipeline wide discretion in fashioning a set of allocation
fractions for each of its customers. From the perspective of the FERC,
the essential reason why block billing works is that each customer's
block 1 entitlement is fixed. It is that fixity which causes the block
2 price to be perceived as marginal~ Any fixed fraction accomplishes
this. The FERC could suggest the historical 1978-84 period as a basis
for the entitlements, but could allow each individual pipeline to
submit any other suggested allocation, along with evidence that its
customers have agreed to the plan. There is always a set of numbers
that would keep all customer prices the same immediately before and
after the implementation of block billing, The fact that a uniform
national standard for this allocation causes some regional hardship is
not unexpected, but could be accommodated with a voluntary,
pipeline-by-pipeline plan@
Several commenters pointed out ways that block billing would be
discriminatory. The Secretary of Energy and Minerals of New Mexico
said that the proposal would create a class of preferred customers and
is illegal, therefore; under the Natural Gas Act;21 Since all
customers receiving gas in interstate commerce would be entitled to
some fraction of low-priced gas (direct industrial customers of
pipelines would receive an entitlement in the revised version of part
D), it would seem no distinct class of customers is singled outo
DuPont, the American Paper Institute and others point out that some
21Biderman, "Supplemental Comments of Paul 10 BidermanG"
34
manufacturers with large entitlements would have an advantage over
rivalse 22 Indeed, a new enterprise would have only block 2 gas and
would be at a more severe disadvantage, in this views The importance
of this effect depends upon one's view of the environment in which the
industrial gas end user competes. Firms in fully competitive markets
would base output decisions on the marginal cost of gas and conse
quently, no discrimination would occur at the margin. Indeed, it
could be argued persuasively that the current differences in rolled-in
pricing among pipelines is discriminatory because these create
perceived differences in marginal prices based on a pipeline's
fortuitous supply of block 1 gas. Block billing in this alternative
view successfully eliminates discriminatory differences in average
prices and creates a level playing field at the margin for industrial
end users.
Raise Old Gas Prices?
Several commenters suggested that the FERC should consider ralslng
old gas prices, in lieu of implementing its block-billing proposal. 23
The Department of Energy has issued a Notice of Proposed Rulemaking
under Section 403 of the DOE Organization Act requesting that the FERC
eliminate vintage pricing of old gas and replace the current
constellation of ceiling prices with a single ceiling price. 24 The
22See Davis "Comments on Behalf of the E .. I. duPont de Nemours and , Company;" Murphy, "Statement on Behalf of the American Paper Institute, Inc."; and Donald P. Mitchell, "Statement of Donald P .. Mitchell on Behalf of the Louisiana Land and Exploration Company," presented to the Federal Energy Regulatory Commission, Docket Noo RM 85-1-000, Part D.
23A partial list includes the u.S .. Department of Justice, the Illinois Commerce Commission, Governor White of Texas, the American Iron and Steel Institute, duPont, as well as producers such as Amoco Production Co .. , and Mobil Oil Corporation. Their comments were filed with the FERC in Docket No. RM 85-1-000, Part D.
24DOE NOPR, 50 Fed. Reg. 48540 (November 25, 1985).
35
FERC accepted comments on this proposal in Docket RM 86-3 until
February 25, 1986.
Many of the commenters on block billing preferred that the FERC
raise block 1 prices and not implement block billing. The Illinois
Commerce Commission stated that there is no logical reason why the
Commission could not do both. It is true that raising the just and
reasonable price of block 1 supplies would reduce the distortions
associated with retail rolled-in pricing. In terms of figure 2, the
vertical distance, representing the marginal value of the distortion,
clearly becomes smaller as the ceiling prices in block 1 increase. In
addition, the DOE has estimated that raising old gas prices would
result in about 34 trillion cubic feet of additional old gas reserves
being produced through recovery methods that are not economically
viable at current prices. These gains in economic efficiency, however,
are at the expense of the equity concerns that prompted the Congress to
require in the NGPA that such gas be regulated forever in order that
consumers would receive the economic rents.
Raising old gas prices would not improve the process of market
adjustment from one equilibrium to another equilibrium, as economic
conditions shift in the future. Block billing facilitates this dynamic
adjustment process. Block billing, if eventually adopted at the retail
level by state commissions, would be capable of achieving a balance
which is close to the undistorted equilibrium in figure 3. Such a
fully-competitive equilibrium could be reached also if old gas price
ceilings were raised high enough not to be constraining. The
difference between these two policies, which more or less achieve the
same objective, lies in the identity of those who receive the economic
rents. Block billing preserves some of these rents for consumers,
while raising old gas prices bestows them upon some subset of
producers.
It should be noted that raising old gas prices ultimately would be
as disruptive to high-cost gas producers as would retail block billing.
36
That is, a properly sequenced equilibrium with a market-clearing price
for old gas would force many high-cost producers out of the markete
Many of these are likely to be independent producers that commented
against the block-billing proposal. Major producers are likely to sell
gas in both block 1 and block 2, so that the loss of some high-cost,
unmarketable production would be offset, within the same company, by
profits from raising the price ceilings on low-cost gas. Small
producers, particularly those who filed comments against block billing,
are likely to be seriously hurt by the proposal to raise old gas
prices. Support for the DOE proposal among producers, then, may not be
uniforma
The FERC may wish to consider block billing in conjunction with
some increase in old gas prices. This would provide the incentive to
recover some part of the old gas enhancement identified by the DOE,
while at the same time, improving the dynamic price adjustment ability
of the market.
37
APPENDIX
PERCEIVED PRICES UNDER BLOCK BILLING
This appendix provides the technical details that support the
analyses of the distributor's perceived price of gas purchases from an
interstate pipeline under the FERC block billing proposal.
Let the pipeline's total annual sales be T, which is divided into
block 1 and block 2, T1 and T2 respectively. Pipeline customer i
receives Di units of gas, divided into Dli and D2i for blocks 1 and 2.
Under block billing, each customer is allocated a fixed fraction, ai,
of the T1 supply. If correct, short-term, sequencing were used, T1
would be invariant to T, as long as total pipeline sales exceed the
block 1 supply. If some type of prorationing policy is followed, Tl
will be sensitive, perhaps proportional, to T. Let T1 = f(T) denote
this response of block 1 supplies to total sales because of incorrect
sequencing. Note that T = Tl + T2 = r Di = r Dli + E D2i-
With these definitions, the customer's purchase of block 1 can be
written as
(1)
The customer's bill for pipeline gas is
Bi P1 Dli + P2D2i
Plaif(T) + P2(Di - aif(T», (2)
where PI and P2 are the prices of block 1 and block 2 gas. The
distributor's marginal price of additional purchases is
38
which is a weighted average of PI and P2, with the weight given to PI
being the customer's fractional allocation of block 1 multiplied by the
sensitivity of the pipeline's block 1 purchasing practices to its total
sales& (Note that aT/aDi = 1)$
With correct sequencing, f'=O and the marginal price is P2, which
is the economically efficient price signale Even if fl is not zero,
however, the perceived price in equation (3) will be close to P2 as
long as the customer's purchases are small in relation to the
pipeline's sales, that is, ai is a small fraction. For example, if
half of a pipeline's supply is from block 1 sources, and the pipeline
is forced by state prorationing laws or other contractual obligations
to take gas proportionally, then f' = 1/2. If ai is 10 percent, then
the distributor's marginal price would place 5 percent (1/2 x 10) of
the weight on the block 1 price and 95 percent on the block 2 price.
If, as seems likely, the pipeline is able to emphasize, perhaps
imperfectly, its sequencing towards a policy of buying block 1 gas
first, fY could be much smaller than the average fraction of block 1
gas in the system supply.
Note that when the i-th distributor changes its purchases, there
are externalities imposed on others. The bill of the j-th distributor,
for example, responds as follows:
Plaof' - P2 aofT J J
Using the previous example. if the price difference between block 1 and
2 supplies were 3 dollars (a negative $3eOO), the externality becomes
-3(890)(1/2)
-1 .. 35,
39
meaning that the bills of the remaining 90 percent of the pipeline's
customers go up by an aggregate $1.35 for each unit decrease in the
i-th distributor's purchases. Hence, a distributor that purchases 10
percent of its pipeline's sales would perceive a marginal price based
on a 95 percent weight being given to the block 2 price, but in so
doing would impose a negative externality on other pipeline customers.
The externality goes to zero as the pipeline becomes more successful
in correctly sequencing its takes.
The analysis of the block 2A/2B proposal in the second section of
this report (supra, p. 16) contains a table showing a distributor's
perceived marginal price in four circumstances. These can be computed
based on the example in section 1 in which a hypothetical distributor
has 100 units of block 1 gas at $1.00 per unit, 50 units of block 2A
gas at $3.00 per unit, and 50 units of block 2B gas at $5.00 per unit.
Total gas cost is $500.00. Supposing the distributor reduces his
purchases by 20 units, the analysis of the marginal price depends upon
whether the distributor has an entitlement to block 2A, and also upon
whether the pipeline can correctly sequence its purchases. Table 2
shows the details of this example.
TABLE 2
PERCEIVED MARGINAL PRICE IN FOUR CIRCUMSTANCES
Distributor Has ---,r----------------------.. --
An Entitlement to Block 2A YES YES NO NO
Sequencing Policy Correct Proportional Correct P~0E.~..!.~onal
Purchases from: Block 1 100 99 100.0 99 Block 211>- t:;n
.JV I, Q t:; -VJeJ 40.8 /,(, r:;
~v .J
Block 2B 30 31 .. 5 39 .. 2 40.5
Total Cost 400 405 418.4 423
Cost Saving 100 95 81 .. 6 77
Perceived Price $5 .. 00 4,,75 4.08 3.85
---------
40
The calculations in table 2 are based upon the actions of the
pipeline when faced with a 20 unit reduction by the distributor.
Initially, the pipeline has 1000 units of block 1 gas, and 500 units of
gas from blocks 2A and 2B. In the first column of table 2, with
correct sequencing the pipeline's purchases are 1000, 500, and 480 from
blocks 1, 2A, and 2B respectively. The distributor has a 10 percent
entitlement to the blocks 1 and 2A supplies and so all 20 units of
reduction are in the pipeline's block 2B supply.
In the second column, the pipeline purchases proportionally and
therefore takes 990, 495, and 495 units of gas from blocks 1, 2A, and
2B respectively. The distributor has a 10 percent entitlement to
blocks 1 and 2A, which implies that his purchase of 180 units is
distributed as 99, 49.5, and 31.5 units across the three blocks.
In the third column, the pipeline uses correct sequencing and its
purchasing pattern is 1000, 500, and 480, as explained for the
circumstances of column 1. In column 3, however, the distributor has a
10 percent claim only on block 1 gas. Out of the 180 units purchased
by the distributor, then, 100 are from block 1 and the remaining are
proportional to the pipeline's pattern. This means the distributor, in
effect, purchases 100, 40.8, and 39.2 units from the three blocks
respectively ..
In the final column of table 2, the pipeline's proportional
purchasing results in a pattern of 990, 495, and 495 units from the
three blocks. The distributor can claim 10 percent of block 1 supplies
only. This gives the distributor 99 units of block 1 gas and the
remaining 81 units are divided equally between blocks 2A and 2B.
41